APS - Atlanta - April - 2012 Rana Adhikari Caltech Wideband, Next Gen, Gravitational-Wave Antennae.
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Transcript of APS - Atlanta - April - 2012 Rana Adhikari Caltech Wideband, Next Gen, Gravitational-Wave Antennae.
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APS - Atlanta - April - 2012Rana Adhikari
Caltech
Wideband, Next Gen, Gravitational-
Wave Antennae
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• Gravitational Waves and the Past
• The LIGO Detectors
• The Global Network and the Indian Possibility
• The Future of GW Detectors & Observations
OUTLINE
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Compact binary inspirals: “chirp” NS-NS waveforms are well described. inspiral is a standard candle.standard candle. BH-BH merger simulations exist!
Supernovae / Mergers: “burst” Short signals. Waveforms not well known. Search in coincidence between two or more interferometers
and possibly with electromagnetic and/or neutrinos signals
Spinning NS: “continuous” search for signals from observed pulsars all-sky search computing challenging
Cosmic Background: “stochastic” Metric fluctuations amplified by inflation, phase transitions in
early universe, topological defects Unresolved foreground sources
GW Sources in LIGO Band 50-1000 Hz
QuickTime™ and a decompressor
are needed to see this picture.
Caltech/Cornell - SXS
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LIGO: Laser Interferometer Gravitational-wave Observatory
Livingston, LA (L1 4km)
~1 hour from New Orleans
Hanford Nuclear Reservation, Eastern Washington - Interferometers are aligned to be as
close to parallel to each other as possible
- Observing signals in coincidence increases the detection confidence
- Determine source location on the sky, propagation speed and polarization of the gravity wave
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A Michelson Interferometer
Ly
Lx
P ∝ PBS x sin2(ϕ)
dP/dϕ ∝ PBS x sin(ϕ)cos(ϕ)
Laser
Phase Shift ∝ Arm Length
Signal ∝ Laser Power
dP ∝ sqrt(P)Shot Noise
Poisson Statistics...
optimum
Anti-Symmetric (Dark) Port
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LIGO: Major Sources of Noise
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initial LIGO Science Requirement
Promised Sensitivity to the NSF for the 1st Generation Detectors.
--- hrms ~ 10-21
(hrms ~ h(f)*sqrt(f))
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82006
initial LIGO Noise Progression
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A Michelson Interferometer
Ly
Lx
P ∝ PBS x sin2(ϕ)
dP/dϕ ∝ PBS x sin(ϕ)cos(ϕ)
Laser
Phase Shift ∝ Arm Length
Signal ∝ Laser Power
dP ∝ sqrt(P)Shot Noise
Poisson Statistics...
optimum
Anti-Symmetric (Dark) Port
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High Power Limit #1:Opto-Mechanical Angular Instability
Stable
Unstable
E. Hirose, K. Kawabe, D. Sigg, RA, and P.R. Saulson, App. Optics (2010)E. Hirose, K. Kawabe, D. Sigg, RA, and P.R. Saulson, App. Optics (2010)
Torque for single mirror
Torque in a Fabry-Perot Cavity
K.A. Dooley, L. Barsotti, M.Evans, RA, in prep (2012)K.A. Dooley, L. Barsotti, M.Evans, RA, in prep (2012)
- Unstable in (5) Mirror Basis: increasing feedback gain fails
- Change to Opto-Mechanical basis to provide conditional stability
- Unstable in (5) Mirror Basis: increasing feedback gain fails
- Change to Opto-Mechanical basis to provide conditional stability
J.A. Sidles and D. Sigg, PLA (2006)J.A. Sidles and D. Sigg, PLA (2006)
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15 kW
~few ppm absorption=>thermal distortions
thermal distortion ->imperfect contrast
10 W
High Power Limit #2:
Thermal Loading
W. Z. Korth, K. Izumi, K. Arai, RA, in prep (2012)W. Z. Korth, K. Izumi, K. Arai, RA, in prep (2012)
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Apply heating beamto make compensating lens
Baseband (homodyne)
readout
Optical Filter Cavity35 W
Enhanced LIGO
fFP ~ 100 Hz
fPR ~ 2 Hz
Power Recycling
T. Fricke, N. Smith, R. Abbott, RA, et al.,CQG (2012)T. Fricke, N. Smith, R. Abbott, RA, et al.,CQG (2012)
N. Smith, et al., Opt. Lett. (2012)N. Smith, et al., Opt. Lett. (2012)
40 k
W
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Enhanced LIGO Performance
2x improvement
Angular Control Noise
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Caltech 40m
Timeline of GW Detectors
1970
1980
1990
2000
2010
2020
20N
N
1st BarDetector
s(Weber)Interferomet
erConcept
(Weiss, MIT)
1st TabletopInterferometer
(Forward, Malibu)
? ? ? ?
2nd GenInterferometer
skm scaleInterferometers
@ design sensitivity
km scaleInterferometers
(Japan, U.S., Germany, Italy)
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Advanced LIGO
x10x10 better amplitude sensitivity better amplitude sensitivity
⇒⇒ x1000x1000 rate=(reach)rate=(reach)33
⇒⇒ 1 day of Advanced LIGO1 day of Advanced LIGO
>> 1 year of Initial LIGO>> 1 year of Initial LIGO
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Anatomy of the Interferometer Performance
Newtonian gravity noise (a.k.a. Gravity Gradients)
Filtered Seismic
Silica Suspension Thermal Noise
Mirror Coating Thermal
Quantum Noise: Radiation Pressure / Shot Noise
initialLIGO(2007)
AdvancedLIGO2015
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• Gravitational Waves and the Past
• The LIGO Detectors
• The Global Network and the Indian Possibility
• The Future of GW Detectors & Observations
OUTLINE
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22
39
10
25 29
36 21
A Future GW Detector NetworkA Future GW Detector Network
light-speed travel time [ms]
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Single Detector
Response
+ polarized x polarized quadrature sum
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LIGO + Virgo
LIGO + Virgo + India
Worldwide network needed for sky localization as well as polarization extraction:Move 1 of 2 Hanford interferometers to the south.
•Australian bid expired last year for budget reasons.
Indian team coming together: experimentalists, large project experience. Good indications from high level funding officials.
RA lab tours in August
Multiple visits by senior LIGO scientists to India
Preliminary go-ahead by NSF to pursue LIGO-India
LIGO Lab: go ahead.
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• Gravitational Waves and the Past
• The LIGO Detectors
• The Global Network and the Indian Possibility
• The Future of GW Detectors & Observations
OUTLINE
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Thermal Noise of a Mirror
Ion Beam SputteredMirror Coatings
Ref
lect
ivit
y /
Tra
nsm
issi
vity
Litton (1979)Ring Laser Gyro
Inertial Guidance
Ta2O5
SiO2
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Fluctuation-Dissipation TheoremCallen and Welton, Phys. Rev. (1951)
Single Damped Harmonic Oscillator
Mirror SurfaceThermal Fluctuations
Q = 104
Q = 108
Hong, Yang, Gustafson, RA, and Chen, PRD (2012)
Yuri Levin, PRD (1998)
Thermal Noise of a Mirror
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Thermal Noise of a Mirror
Why a ratio of 104 in dissipation?Why a ratio of 104 in dissipation?
R.O. Pohl, et al., Rev. Mod. Phys. (2002)R.O. Pohl, et al., Rev. Mod. Phys. (2002)
2-level tunneling model2-level tunneling model
W.A. Phillips, Rep. Prog. Phys. (1987)W.A. Phillips, Rep. Prog. Phys. (1987)
- Nearly all high quality optical coatings use amorphous oxides.
- Nearly all amorphous materials have a (low Q) large internal friction.
- Nearly all high quality optical coatings use amorphous oxides.
- Nearly all amorphous materials have a (low Q) large internal friction.
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Crystalline Mirror Coatings
G. D. Cole, et al., Appl. Phys. Lett. (2010)
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The Road to Noiseless Mirrors
Caltech IQIMJILA / PTB
300K design300K design
G. D. Cole, RA, F. Seifert, in prep. (2012)G. D. Cole, RA, F. Seifert, in prep. (2012)
120K Silicon:CTE = zero,
High Thermal Conductivity
120K Silicon:CTE = zero,
High Thermal Conductivity
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Cryogenic LIGO
Silicon etch process
from O. Painter @ Caltech
for ground state cooling
f ~4 GHz, Q ~105 , Nquanta < 1
Monolithic Silicon Suspension
Requires switching the laser technology:
1064 nm => 1550 nm
CaltechInstitute for Quantum
Information and Mechanics
JILA / PTB
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Anatomy of the interferometer performance
Newtonian gravity noise (aka Gravity Gradients)
Filtered Seismic
Silica Suspension Thermal Noise
Mirror Coating Thermal
Quantum NoiseRadiation PressureShot Noise
initialLIGO(2007)
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What about this Quantum noise?Shot Noise Picture: Poisson statistics govern arrival time of photons at the photodetector. Also arrival times at the test mass (radiation pressure).
Vacuum Photon Picture: Losses couple the fluctuating vacuum field to the interferometer. Noise is a beat between the amplitude of the vacuum field and the local field (field at the dark port or field at the test mass).
Photodetector
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Circumventing Usual Quantum Noise
Carrier Field
Squeezed Vacuum
C. M. Caves, PRD (1981)Braginsky, Vorontsov and Thorne, Science (1980)
Wu, Kimble, Hall, Wu, PRL (1986)
Vacuum
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Squeezed
Interferometers
30% reduction
K. Goda, et al., Nature Physics (2008)K. Goda, et al., Nature Physics (2008)
LIGO, Nature Physics (2011)LIGO, Nature Physics (2011)
Caltech 40m prototypeCaltech 40m prototype
GEO Squeezer (Hannover)GEO Squeezer (Hannover)
Caltech 40mCaltech 40m
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Squeezed Light in Action: LIGO
4km
Optical Parametric Oscillator
(from ANU)
Optical Parametric Oscillator
(from ANU)
Squeezed Light Injection TableSqueezed Light Injection Table
Installed at LIGO Hanford throughout 2011Installed at LIGO Hanford throughout 2011
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Squeezed Light in Action: LIGO 4km
from L. Barsottifrom L. Barsotti
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3rd Generation LIGO3rd Generation LIGO
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Caltech 40mprototype
Initial LIGO
Enhanced LIGO
Advanced LIGO
3rd Generation Instruments
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• The Advanced LIGO Detectors are on track for a 2014-
2015 Science Run.
• The Global Network of 2nd Generation detectors is
coming together in the next 5-10 years.
• Recent developments make the future potential bright.
• We have never before been closer to GW Astrophysics.
Summary